Harvester



w. J. COULTAS ET AL HARVESTER June; 11, 1935.

Original Fiied Jan. 16, 1953 9 Sheets-Sheet a w/ r/vEss Junel 1, 1935., w. J. COULTAS ETAL 2,004,720

. A V HARVESTER Y J I 7 Original Filed Jan. .16, 193:5 9 Sheets-sheaf. 4 Y

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June 11, 1935. w. J. COULTAS ETAL ,0

' HARVESTER Q Original Filed Jan. 16, 1933 9 Shee ts-Shee t 5 rv/rwiss y a 4110mm June 11, 1935. w. J. COULTAS ET AL 2,004,720

HARVESTER Original Filed Jan. 16, 1933 9 Sheets-Sheet 6 IN VENTORS W/77VE55 ATTORNEYS.

Julie 11, 1935. w. J. COULTAS ET AL 7 t e e h S S t e e h 9 HARVESTER Original Filed Jan. 16, 1933 INVENTORS M BY fl/W, ATTORNEYS WIT/V5515 June 11, 1935. w. J. COULTAS ET AL 2,004,720

HARVESTER Original Filed Jan. 16, 1933 9 Sheets-Sheet 8 E H 56 1 Ili'i I66 0 H E i 1% INVENTORS 15- 1 BY%m Mm gg ABM,W W m W/T/VEJF ATTORNEYE Patented June uNlTEo f-srA-T s HARVESTER I 4 Wilbur J. Coultas and Norman F. Andrews, Mo-

I line, lll., a corporation I Application January 16,

line, 111., assignors to Deere & Company, Mo

01' Illinois I 1933, Serial No. 651,888

Renewed November 24, 1934 I 31 Claims.

The present invention relates generally to agricultural -implements of the wheel supported, tractor attachment type,' i. e., 1 implements which I have more or less direct attachment to the'trac- 5 tor but which are provided with their own wheels forsupporting some or. all of the weight of the implement. In the exemplary embodimentherein shown, the implementconsists of a' multiplerow corn harvester comprising picking mecha- 1o nisms for pickingthe ears oicorn from the stalks, conveyors receiving the earsfrom the picking mechanisms, husking mechanisms receiving the ears from the conveyors and husking thecom, and elevator apparatus for discharging the husked ears of corn into an adjacent wagon or other receiving receptacle; 2 i

Certain aspects of our-invention are concerned with an improved construction of wheel supported, implement frame, and with an improved manner of associating, and connecting this frame with the tractor, these features beingbroadly applicable to different types of implements; other aspectslof our invention are concerned with improvements more particularlypertaining to the as corn harvester mechanisms, including the grouping andarrangement oi the partathetransmis sion oif power thereto, etc; I a

One of the objects of the/invention is to provide an improved wheel /supported implement frame which substantially embraces the tractor. Such construction affords a'very elose-c'pl pled assembly of short over-all length; which is particularly desirable for minimum' turning spaceat the ends of the field. Another advantage of suchconstruction" is the. immediate and direct responsein steering. Since the implement frame embraces the. tractor, the frame steers'sidewise substantially directlywith the tractor; Thisis particularly desirable for following plant rows, as,:for.example, in a corn harvesten The closecoupled assembly also enables the driver to have closer'an'd better vision of the work, as in following plant rows. 3 I Another object of the invention is tolprovide 4 an improved propelling connection between this construction of, implement frame and the tractor which 3 will result in the major portion of the weight vof the implement being borne on the wheelslof the attachment frame,and which will permit said' wheels and attachment frame to rise and tall relatively to the tractor in passing over uneven ground.) In this regard, it is another object to provide'an. improved arrangement of resilient balancing 'means effective betweenthe,

55 implement and tractor and-cooperating with the wheelsof the tractor.

improved propelling connection, whereby the im-' plement is caused to run more. steadily and smoothly. vAnother feature cooperating with the' foregoing is the provision of an improved adjusting mechanism which enables the implement a frame to be tilted fore and aft relatively to the tractor, as for raising and loweringimplement parts, carried by'the frame, relatively to the ground. Preferably this tilting motion occursabout the implement wheels. 'Another object is to provide improved steering mechanism which causes the implement wheels to be steered in proper corresponding degree to the deflection oi thesteering wheel or s Another objectof the invention is to prov ide an improved corn harvester wherein the'pickingmechanisms and husking me hanisms are-s6 arranged on this wheel supported frame as to substantially counterbalance each otherfover' the 20 implement wheels. This contributes to smoother running of the implement, and enables'the op-- erator to tilt the implement more easily for adjusting the height of the. picking mechanisms relatively to the ground. II Another object is to provide an improvedcom bination of driving mechanism for driving the I snapping rolls and gathering chains of the pick I ing mechanism, for driving the conveyors which.

carry the oorn-from the picking mechanisms to 80 the bushing mechanisms, for driving the husk-' ing. mechanisms, and for driving the l v which delivers the husked ears of corn into the adjacent wagon or otherreceptacle. Inthe preferred embodiment herein illustrated, the power 85 i I for driving these several mechanisms isderived from a power take-oil device on the tracto'nand" I one of the objects of improvement is'to provide. a construction wherein the; power transmitting connections may be established with this power 40 take-ofi device in the most convenient, expeditious manner; I I I q I I Another object is to provide an improved ar- I rangement oi 'the'conveyors for conveying the mechanisms... Other objects and advantages of theinvention will appear from the following detail description corn from the picking mechanisms to the bushing of a preferred embodiment thereof. In the accompanying drawings illustrating such embodiment: Figure 1 is arfragmentary plan view of the implement attachment and tractor, portions of the implement being broken away for convenl- I ence of illustration, and the tractor being illustrated in light lines;

Figure 2 is a fragmentary side view with portions broken away, the near driving wheel of the tractor being omitted for illustrating adjacent parts of the implement;

Figure 3 is a fragmentary side elevational view showing the implement attachment set up in position for receiving, the tractor, which is driven into proper position between the side portions of the implement for attaching the latter thereto;

Figures '4 and 5 are fragmentary plan and side skeleton views showing the construction of the implement frame and its manner of attachment to the tractor; I

Figure 6 is a plan view with certain frame and housing parts broken away to better illustrate the driving connections for the picking units, husking units and elevator;

Figure 7 is a transverse vertical sectional view taken approximately on the plane of the line of Figure 2; t

Figure 8 is a longitudinal detail section through the lefthand picking unit for illustrating the driving connections to the different parts of the picking units;' t

Figure 9 is a fragmentary rear view, with parts broken away to illustrate the husking units and some of the parts establishing the driving .connection with the rear elevator; and

Figures 10 and 11 are'plan and side skeleton views showing the steering connections estab lished between the tractor steering wheels and the implement wheels, Figure 11 being a longitudinal section taken on the plane of the line |l oi! Figure 10.

The tractor l4 may be of any conventional type, but is preferably of the three-wheeled or so-called tricycle type, comprising two relatively widespread rear traction wheels l5 and twoa'djacent steering wheels IS. The tractor is bestillustrated in Figures 10 and 11, from which it will be seen that the two steering wheels l6 are placed close together to function in effect as one wheel; both swiveling around a common axis defined by a central steering column extending down be tween the wheels through a wheel supporting,

This steering column has connection casting with a short transverse axle l8 on which the wheels are journaled. The stub axles of the rear traction wheels l5 are journaled in chain housings 2|, in which are enclosed sprocket chains trained over sprocket gears on said stub axles and over sprocket pinions mounted on countershafts extending out through tubular housings 22. The latter housings are secured to the sides of a main central housing 23 in which are enclosed the-selective speed transmission mechanism, differential,

'etc. The power take-off device is indicated at 25, being shown as disposed on the side of the main housing 23. Said power take-off device comprises a longitudinally extending shaft arranged to be driven from the tractor motor, the opposite ends ment is carried on two similar side wheels 3|. Preferably, these wheels 3| are positioned with their axes intermediate the axes of the rear and front tractor wheels l5, l6, substantially as shown, although it will be understood that said implement wheels may be positioned forwardly or rearwardly from the position illustrated. The major portion of the weight of the implement attachment is carried on thesewheels 3| and the tilting of the implement to raise and lower the picking units occurs about said wheels. The two picking units 32 for a two-rowmachine are disposed at opposite sides of, the tractor. In such two-row machine, the tractor steering wheels l6 travel between the two'corn rows, and the reartractor wheels l5 and the implement wheels 3| travel on the outer sides of the two rows. The two picking units 32 are disposedjforwardly of the implement wheels 3|. From the picking units, the corn is conveyed upwardly and rearwardly in conveyors 33, which incline orflare outwardly toward the rear of the implement. The upper ends-of said conveyors discharge into chutes 34, which in turn .feed the ears of corn tothe husking boxes 35.

The picking units;32,conveyors33, and husking boxes 35 are supported on a rigid frame strucsubstantially entirely onillthe implement wheels 3|. The axles 42 on whicn'said implement wheels are journaled are of" L-sha-pe :(Fig. 7), having upwardly extending portions swiveled for rota- =tionin the "side leg portionsoi'z- 'an inverted U- ,ishape arch structure whichconstitutes the main "supporting or bracing elementyot the frame 4|. Thisarch structure comprlses the parts 43,44, .45 l6. The vertical spindles-bfthe axles I2 ture, generally designated ll, which is carried are .ioumale'd in the lower endsoff'sleeve castings extensions 44 are boltedlto the upper ends -of,.'said sleeve castings, as bygclainping'or like fastening members a, and to-the upper ends of theseipipe extensions are secured bracket fixtures 45,3 The post structures formedby said sleeve castings and pipe extensions 44 define the side legsof the arch structure. Spanning these two .post structures is arched "frame member 48, theends ofwhich are welded'or otherwise secured to angle brackets which are bolted or otherwise secured tothe bracket fixtures 45. The

above described arch member 43-16 lies 'substa'ntially in the transverse plane of the implement wheels 3|, and has considerable strength "for resisting outward spreadingoi' said wheels. This arch spans the top of the tractor. The main frame II also comprises a forwardly extending, substantially horizontal arch 5|, preferably consisting of a bent section of pipe having its ends bolted or otherwise secured in tubular sockets 45' formed on the bracket fixtures 45. As shown I in Figure 5, the front end of the horizontal'arch 5| clears the front end of the tractor. This horizontal arch'braces .the vertical'arch in resisting outward spreading of the implement wheels. The main frame members supporting the husking boxes extend rearwardly substantially in prolongation of the ends of this horizontal arch, aswe shall hereinafter: describe.

The two picking units 32 are supported on separate auxiliary frames, designated 52 in their entireties, and best illustrated in. Figure 4. Each of these auxiliary or sub-frames comprises two forwardly extending angle bars 52 and 52", which are spaced apart a distance to span the adjacent plant row. Therear portions of these two angle bars are crossconnected by two short angle bars 53 and54 which have their inner ends terminating at the inner longitudinal. bar 52' and which have their outer ends bolted or otherwise fastened to the front and rear sides of the adjacent sleeve casting 43 in which the implement wheel isswiveled for steeringmovemenh The two sub-frames 52 are detachably tied together beneath the body of the tractor by tie rods 56 which have their outer ends hooked in holes'in the rear transverse angleibars 54 and which have their inner. ends operatively connected together by a turn-buckle 51.- Referring to Figure 5, the forward ends of the, longitudinally extending members 52 and 52" are bent down slightly for bolting to two inclined frame members 6| and 6|" which project. forwardly from the members 52', 52" and Which'haye their rear ends extending upwardly above said longitudnal frame members. Said upper rear ends of the inclined. bars are secured to brace bars 62' and 62" which incline downwardly andrearwardly and are then bent vertically for attachment to the front transverse bar 53, the outer inclined bar 62" being also'secured to the outer longitudinal bar 52".

Referring torFigure 4, the forward ends ofthe inclined bars 6| and 6|" haveextension members ,64 and 65 secured thereto, respectively, and at the forward ends of these extension members there are provided horizontal hinge pins and.

61. Pivotally supported on these pins are the two outer floating'shoe frames or gatherer points 69 and the single central shoe frame or gatherer point 68. Tension braces II are secured to the outer extension members 65 and extend upwardly and rearwardly for adjustable connection with,

brackets or lugs 12 (Figure 5 projecting outwardly from clamping members 44a secured to the pipe members 44 (Figure'7). The frames 52 are further braced by inwardly extending diagonal brace rods 13 which have lower attachment to the inner ends of the front transverse bars 53 and which have upper attachment to *the clampingfrnembers 44a (Figure 7). The auxiliary frames 52 have braced connection with the horizontal arch'5l of the main frame through an arch-shaped angle bar ,15 (Figure 5) which has its transverse portion welded or otherwise secured to the central portion of the horizontal arch 5| and which has its downwardly extending side legs secured by bolts 16 (Figure 4) tothe inclined inner-frame member 6|. A wear plate 11 extends downwardly substantially in prolongation of each side leg of said arched angle member 15. The upper end of each wear .plate has an outwardly bent offset end which is secured by a bolt 18 to said downwardly extending leg of the arched angle member, and the lower end of said wear' plate is fastened to a bracket 19-s'ecure'd to the longitudinally extending; frame bar. 52

(Figure 5). These wear plates H are adapted to have rubbing contact with cooperatingwear plates 8| mounted on the tractor whereby to,

assure that other portions of the implement and tractor will not have rubbingcontact in the relatures 9| at the opposite sides of tive movement between the two." Rub plates 8| extend along the sides of the tractor, having their rear ends secured to brackets 82 fastened to the under side "of the tractor body, and having their front ends secured at'83 to'the frontside of the steeringgc olumn housing II. It will be seen from the description thus far that an open longitudinally extending space is defined between the two side auxiliary frames 52, into which space the relatively narrow front portion of thetractor can be driven in assembling the implement attachment on the tractor, the contact between the tractor rub plates 8| and the implement rub plates 11 properly locating the front end of. theimplement in this space. In assembled relation, the horizontal arch 5| extends around the front of the tractor and the vertical arch 46 extends across the top of the tractor. After the tractor has been driven into position within the implement, the lower transverse tie rods 56 are connected and drawn up under tension by the turnbuckle 57. As previously remarked, substantially the entireweight of the implement attachment.

is carried by the implement wheels 3|, and the major portion of this weight hangs between the tread l'nes of said wheels; from whence it will be seen that the tendency of the weight is to wardly from the bracket fixtures on the upright posts 43, 4 4. These angle bars are secured to pipe members 81 which are bolted in the hori-.

zontal tubular sockets 45a of the bracket fixtures 45, and which pipe members may consist r of independent shortlengthsof pipe or may consist of the rearwardly extending ends of the horizontal arch 5|. The rear ends -'of the longitudinal anglebars 86 are connectedtogether by a transverse pipe angle bars in a manner to be later described. Said angle bars carry two auxiliary frame structhe implement, which auxiliary frame structures mount the husking boxes 35. Each of these auxiliary frames comprises the rear portion of the adjacent angle bar 86, and an inwardly spaced parallel bar 92 Rising from each outer bar 86 are three vertical;-

angle members 93, 93'and 93" (Figure 2), and rising from the inner bar 92 are threevertical 88, which is connected to said angle members 94, 94' and 94"- (Figure 5 The J upper ends of the first series of vertical bars are connected by a longitudinal .bar 95 (Figure 2) and the upper ends of the second series of bars are connected by aninclined bar 96 (Figure 5).

the aforementioned angle bars, are cross-connected at their front ends by a transverse angle The two sub-frames 9| which are thus formed by four front angle bars 93 93 and 94, 94. Mounted transversely at the rear end of each sub-frame 9| is a husking roll bearing supporting casting 99 which has its ends bolted or otherwise fastened to the outer and inner longitudinal angle bars 86 and 92. U-shaped brackets IM and |0| project rearwardly from the outer and inner ends,

of these bearing supporting castings 99. The transverse pipe 88 is detachably mounted in these U-shaped brackets by pins I02 passing down through the arms of said brackets on the rear side of the rear side of the pipe. The pipe is also.

utilized to hold the two' sub-frames i against lateral spreading, such being. accomplished by passing stop pins I03 down through holes in'the pipe on opposite sides of each inner bracket III, whereby to prevent relative movement between said bracket and pipe either inwardly or .outwardly of the implement. Thetransverse .pipe is removed when the tractor is being driven into the implement for assembly, or is being backed outof the implement. The sub-frames 0| have suspension bracing established by tension rods I00 which have their forward ends fastened at I00 to the horizontal arch 0| and which have their rear ends fastened at I01 to the main angle bars 80. The intermediate portion of each tension rod extends upwardly over a notched rest I08 rising from the adjacent bracket fixture l0,

and then extends outwardly-and downwardly over a supporting arm I00 projecting outwardly from each vertical angle bar 03 (Fig. 2) A turnbuckle III in each rod I00 enables the latter to I be placed under any desired tension. The two husking boxes 30, including the husking rolls, driv ing mechanism, blower, etc., are suitably mount-' ed on these two sub-frames 9|. Thetflspace bec tween said sub-frames and the husking-boxes supported thereon enables the fore-part of the tractor to be'driven therebetween in attaching the implement to the tractor, and this space accommodates the operator inhis position on the,

'tractor seat 20.

The propelling connections between the tractor and implement comprise a pair of link or frame structures Ill, disposed one at. each ;side of the implement, as best shown in Figure 4. These connecting frame structures are of triangular-shape and have their divergent forward ends pivotally connected with the implement frame on'a horizontal pivot axis. Said pivot axis is defined by inner and outer pivot pins I I 0 passing through the inner and outer arms ofthe frame I I0 and also passing through lugs or pivot portions H6 and H0" projecting rearwardly from the sub-frame members 02' and 02". The

rear ends of the connecting frames I have. plates Ill secured thereto, which are provided with apertures I I8 adapted to slip down over upstanding lugsor stud pins II9 attached tothe tractor. The studs II9 project upwardly from brackets I 2i '(Fig. which are suitably fastened to the chain housings 2I of the tractor,being fastened, as for example, by attachment to lugs I22 which project forwardlyfrom these housings for connection with a draw-bar. The apertures H0 are sufilciently larger than the studs IIO to 2 permit a certain amount of vertical or rocking movement of the connectingframes H4 relatively to the studs. Suitable cotter pins I20. or the like prevent the accidentaldisplacement of the plates II'I up over the upper ends of the studs. Q1

Although the implement issubstantially balanced over the implement wheels 0|, it is de-. sirable that a slight preponderance of the weight tend totilt the implement in one, direction about a said wheels, it being found that such affords a smoother running operation of the implement.

Preferably, this slight preponderance of weight is disposed to the rear of the wheels 3|, sons to tend to tip the front end upwardly, although this might be reversed by having the preponderance of weight in the front. Ithas also been found.

advantageous to exert a resilient balancing tendency against such 'prepondenance of weight, and to this end a pair of compression springs I20 are arranged to be effective between the implementframe and the tractor, preferably by having one of these springs exert pressurebetween' each propelling frame Ill andv an associated rigid frame arm I20 which projects rearwardly from the implement frame under the propelling frame. These arms I20, which may be integralextensions of the outer pivot portions 0'', slope downwardly to the rear to permit limited vertical tilting movement betweonsaid arms and the propelling. frames. Rods I21 have their lower ends suitably anchored to said arms I20 andextend upwardly through apertured plates I20 secured to'each propellingiframe I II. The compression springs I I20 encircle these rods, and are confined between the plates I20 and washers I20 at the upper ends of the rods. Said upper ends are threaded for the reception of nuts Ill which bear against the tops of the washers I20 and'enable any suitable pressure to be imposed on the springs I20- The pressures imposed on said springs may be adjusted to counterbalance either all or only a portion of the preponderating weight effective to the rear of the implement wheels.

Provision is made for "tilting theimplementframe, as for raising or lowering the picking units 32 relatively to the ground. This is accomplished by an adjusting lever Illwhich is pivotally supportedat I00 on frame bar 02, adjacent tothe operator's position on tractor seat 20. The lower end of said'lever is pivotally connected at I20 to a link I 01 which extends forwardly for pivotal connection at I30 to a suitable mg or bracket I00 on the tractor frame. Thelever Ill has conven tional cooperation with a suitable latching' sector I40 for holding the lever in anyjadjusted position. It will be evident that rocking the lever Ill forwardly transmits forward thrust to the frame pivot I00 and tilts the implement frame forwardly over the supporting wheels 0|, thereby lowering the picking units 32, and that rocking said lever in the opposite direction tilts the frame rearwardly, thereby; raising the picking units;

The tilting of the implement frame occurs partly around the wheel axes and partly around the tiltable end connections of 'thepropelling frames with the implement and with the tractor.

It will be evident that the hinged connections established'from the implement frame to the tractor through thepropelling frames Ill permit the implement frame and its supporting wheels II to rise and fall' relatively to the tractor in passing over uneven ground. The lost motion or play afforded by the loose flt'of the holes ",I I0

implement frame to rise-0r drop down relatively tothe other side and to the tractor, in encountering irregular ground. The tilting) link in, in extending more or less parallel to the propel over the studs IIO also permits one side ofthe ling links Ill, does not'appreciablytilt the 'im-gplement. fore and aft in any such rising ,andi l falling movement. Any tendency for the implement frame to be tilted fore and aft by ground shock or work resistance by the springs I20.

The implement wheels 0 I are steered simultane- J ously with the tractor steering wheels I0 through the instrumentality of mechanism which is best illustrated in Figures -10 and 11. A rearwardly extending arm Ill is rigidly bolted to the under side of the axle I0 of the front truck of the tractor. A vertical pivot boltI42 connects the rear is yieldin'gly. resisted rotation of the bar within the tube. Said bar and .tube constitutea telescopic arm which is adapted for sidewise swinging about a vertical pivot bolt I45 passing down through the clevisshaped rear end of the arm. Said pivotbolt I45. is'carried by astationary bracket I46 whichis' fixedly suspended below the transmission case 23 of the tractor by a transverse bar- I41, forwardly extending brace bars [48 anddiagonal brace bar I49. Brackets vI5I are secured to opposite sides of the telescopicarm 'I43,I,44 andlinks -I52;hav e1 their inner ends pivotally connected with said brackets. The-outer .endsof saidlinks are piv-' otally connected with steering armc i53 fixed to and projecting rearwardlyqf-romgthe L-shaped axles 42 of' the implement wheels-:3I. By virtue of the above described mechanism, theimpleended angle brackets I68 secured to the top sides .of the frame bars I51, with the open endsof draw-bar.

ment wheels are turned simultaneously with the, steering truck wheels I6Jof the tractor, and the lengths of the arms I53 and thepositionof the brackets l5I 'on the. telescopic arm,I43 .-I44are such that the implement wheels turn, in approximately a correct differential relationship with respect to thewheels of' theptractor steering truck. The steering links ;I5I are preferably made with adjustable sections whereby theeffective' lengths of said links may be increased or decreased, and the brackets I5I may also be arranged for adjustable shifting to different posi tions along the telescopic arm,.if desired. I Referring now to the manner of mounting th elevator 38 and its associated hopper .31'on the tractor, it willbe observed from Figure6 that the tractor draw-bar 21 is utilized to support a rectangular frame I56 which projects rearwardly from the tractor. It is on thisframe that the elevator and its hopper-aresupported.. Said frame comprises two longitudinally: extending angle bars I 51 which rest on the topof the drawbar 21 and are v.held' againstsidewise shifting thereon by'pins: I58 passing "through said angle bars and downwardly throughv holes in the Referring to Figure} the forward portions of the angle bars- 1I;5 1 are bent upwardly, and at their front ends are connected by 'a transverse bar I59. ,The latter bar is secured to the tractor frame by;,bolts I 6I which,

in the type of tractor shownr-maybe the same bolts which securethe seat support 28' tothe transmission case 23'.

zontal legs of said right angle members I62 is a board I63 which-serves as a platform for the' operator.-: The lower driving shaft I68 of the elevator 38.. is mounted transversely across the on the frame,-establishe d, for example, by opensaid. angle brackets facing rearwardly. After thebearings I61 have been thrust forwardly be- J tween these angle brackets and the frame bars,

they are retained in position byremovable pins or bolts I69 passing down across the open ends of the angle brackets, through said brackets i ht ea ba or 'brackets I62 are secured to the forward'portions of the bars ..I51,"and fastened across the hori- This detachable mounting umay be aiforded by inserting the bearings into theopen. rear ends of clevis-like constructions and "frame bars.

the hopper 31 is secured to the -elevator,to ,be carried thereby. The elevatoris held ina rearwardly' inclined position by means of a pair. of forwardly extending tension rods I1I.v Therear ends of these rodsare connected to'the elevator near the upper end thereof, andthe forward ends thereof'are connected to brackets I12 which are secured to the upwardly H extendinz angle bairs"93-"., The brackets I12 are so positioned ,th'a'tthe line of pull extending along the length ofjea'ch'rod I1I projects forwardlyto a point either intersecting the axes of the implement wheels 3i, or passing in closeproximity to said wheel axes."- As a result rof'fthisarrangement, the weight of the elevator 38 doesnot.disturb the balance of the "tiltable implement frame-4|,v

nor'doesit affect the tilting. of the implement relatively to the tractor. "As the implement is tilted;'the brackets I12 move in a line approximately perpendlcularto'thetension rods I1I.

The chutes"36 which directzthe corn from the hus'king boxes int'o the'hopper 31-are pivoted at" I14 Figure 9) to the 'husking boxes, and lead down'into and ,rest: upon the hopper 31; These chutes are'provided with; hooks-l15 which are adapted to hooki'over. the forward edge {of the hopper'31'to. holdzthe chutes; in

proper position. a .y l A supplementary draw bar I=11isconnected across therear 'ends-of the framebars I51 and is provided withholes therein forestablishing a draft connection with a wagon towed inrear of the implement, and into which the: corn is deliver'ed by theelevator'38; We shall-now describe the driving apparatus for transmitting power to .the pickingunits .32, the conveyors 33 and the husk-ing boxes-35, and in that connection, shall describe in greater ,detail -some of the operatingparts of some of; these units or mechanisms.

joint I8I', telescopic connection I82 and universal joint I83 (see Figures 6. and 8)., The. front mit power from the shaft I84 to -a shaft I81 which inclines upwardly and rearwardly substantially parallel with the. picking units. Also extending substantially parallel with saidshaft I81, and driven thereby, are three power transmitting shafts I88, I89, and I9I (see Figure 6). A'sprocket I92 on shaft I81/trans'mits power through afi'chain I93 to: sprocket pinions I94 The elevator 38 is pivotally mounted on the transverse drive shaft I68, and

Enclosed within. the

The'power for driving 'thepicking units, conveyorsand husking boxes is taken fromthe front end 26a of the power take-off shaft on the tractor, the'rear end 26b'of said shaft being utilized to transmit power to .the elevator -38, as we shall later describe. power transmitting connection is established with said front end 26a through a universal.

and I95-mounted respectively on shafts I88 and I89; The-shaft I89 carries a second sprocket I96which transmits power through a chain I91 Ito a sprocket I98 on shaft I9I, this chain also passing over an idler sprocket I99.

'Ihe'righthand-picking unit" 32 has .a'similararrangement of driving-apparatus (the same ref- "erence numerals, with the "subscript aappended, designating like parts); this train of drivtheconveyor is duplicated at the lefthand side ing mechanism including the shaft I04a, gear box llia shaft IBM; and supplementary shafts I80a, I89a and I 9Ia driven by the chains I93a and IBM, all as above described. Power istrans mitted from the lefthand assembly of driving apparatus to .the righthand. assembly through a transverse chain 20I which extends from one picking unit'tof-the other at a point across in front of the tractor.

I04a and itsassociated righthand assembly. of driving mechanism! I "Ihe snapping rolls 204,

these shafts being operatively connected with one roll'of each pair,- and the other roll being drlven by intermeshing. gears on..the;shafts1of. the two.

I89'and' l89a'drivethe inside gatherer-chains 208 and 206a, Referring to Figure 8, the shaft-I09 extends downwardly and forwardly intofa gear box 201 wherein it is-connectedthroughbevel gears with shaft 208 which carries the upper drive sprocket'209 over which the inner-gatherer chain .206 is trained. A like arrangementof driving parts transmits power .from the 'righthand shaft I890 to the righthand gatherer chain 206a. The shafts I9I, ISI'a are arranged-totransmit power to the outer gathrer'chains-Zl I, 2| la. and also 7 'to the two side conveyors 33; Referring to'Figure 8; the shaftISI extendsinto a gearbox 2I 2 where itconnects through bevel gears with the shaft 2I4whi'ch extends upwardly and forwardly to the adjacent gathering chain, this arrangement -=being duplicated at thevrighthand side of the machine. "Figure 6-illustrates theoperative connection of-thecompanion righthand shaft 214:;

v with its'outer gatherer chain:2I;Ia. A sprocket wheel 2| a is mounted on said shaft. and the upperbight of the chain travels over said wheel. A sprocket wheel 2I6a.is driven by the chain and the'shaft 2IIa of this sprocket wheel ex tendsdownwardly to the lowermend of the ad- "jacent conveyor 33, where it drives the sprocket wheel which meshes :withthe traveling chainof the conveyor. The above described arrangement for driving the outergatherer chain'and of the machine. 7

It will be observed from Figures l and 6. that each of the two conveyors 33 is inclined or flared outwardly in extending upwardly. and rearward- 'ly from the picking units to the husking boxes,

such enabling the conveyors to clear the'upright post members 43, 44. This outwardly divergent angle alsoaccommodatesa preferred arrangement of operating-and. driving connections ad-:

I iacent tothe front'end of eachhusking'box.

The upper ends. of the conveyors are supported on the'outer ends of the transverse brace .bar.8'I,. and by virtue of this arrangement-the conveyors aid in bracing the husking box framesQI against inward or downward deflection. The chutes .34 direct the .ears'rof corn from-the conveyors inwardly into proper position on the husking rolls spective shafts 2II, 2I-1aprevent any overload Power for driving the husking mechanisms is This chain istrainedover; sprockets 202 and 202a mounted ,onthe shafts I84 and I84a, respectively,-whereby the lefthand assembly-of driving mechanism transmits power; from the shaft"l84= and chain-I to'the shaft:

of each picker' 7 unit are driven from :the shafts I08 and 0a,.

transmitted from upwardly therefrom. The-upper ends of the lat-.

ter' shafts are connected through universal-joints 224 with short shafts 225 which enter gearboxes 220, the latter being secured to the vertically extending frame members 92 and to brackets carried by the transverse bracemember 91. Bevel; gears in theseboxestransmit power to short out-j wardly extending. shafts 220 which have sprockets j on their outer ends over which is trained-a chain 229 (Figure 2). Saidchaln transmits power-tothe husking" rolldrive shaft 2II; through a sprocket wheel on said shaft, and also 1 power toa sprocketwheel232 with, which me pitman 2341s eccentrically connected; Said pit-/ man itransmits rocking movement. to the retard-. ers, generallyindicated :at 205. The chain 220 is also trained over a sprocket wheel mounted on '20 the end of crankshaft 230, with which crank the shafts I80,.I00a through universal joints 222 and shafts 22Iextendlng' shaft the kickers23'l are connected. Said crank. v

shaft is journaled in bearings. 239, which-are fastened to thetransverse brace member SLQThe chain229 passes over two idler sprockets .24I and 242 and over. anintermediate sprocket wheel 243 which is mounted on a shaft. carrying the front roller of the. husk conveyor, which husk conveyor is'positionedundemeath the husking rolls 22L A relatively larg'esprocket whee1i245 is mounted on the outer-end of the husking roll drive shaft 23I-, and over this'sprocket is trained aQchaIn 246 which passes over a sprocket on shaft 241.

On the outer endof the latter .shaftisflxeda large pulley'248 which transmits a relatively high speed rotation to pulley 25I through belt 240. The small pulley'25I drives the fan'or blower 252 which projects a blast of air forwardly through the lower'part of theflhusklng'box, Downwardly curved hoods v254 are providedat the forward ends of the husking boxes for directj ing the husks; silk, stalks and other trash down onto. inverted V,-'shaped shields 255. These 'shields'are mounted on the propelling frames I I4 and'cover the counterbalancing springs I25-,,serving to deflect the trash proiectedfromthe hoods the propelling frames; y v

It will be observedfrom the foregoing that all of the power transmitting connections for driving the snapping rolls, gatherer' chains, conveyors and husking boxes,branch' off from the single jpower transmitting connection IOI, I02 connecting with the front end 2611 or the power take-0d shaft- This greatly'simplifles the operations of connecting the implement to the tractor, and disconnecting the same', theisingle power transmitting. connection being establishedby-feedingf. one part of the telescopic connection I82 into the other part as the tractor is driven forwardly into position in the implement. Suitable slip clutches are in the diiferent'branch paths of'power transmitting connections so that overloads at anyone or more points cannot cause breakageor injury of the mechanism. For example, overload slip clutches interposed betweenfthe shafts I01, I8Ia and the sprocket pinions I92, I92aprevent overload from any jamming of the snapping rolls or from the husking mechanisms; slip clutches iny 5 '255 downwardly upon the ground to either side of terposed'between the "sprocket pinions I 05,. I 950.

and their-respective shafts I09, I89a prevent overload from any jamming of the inner or outer gatherer chains; and slip clutches interposed between the sprocket wheels 2IG',2 I So and their refrom the possible jamming of the conveyors 33.

Tun-buckle 51 is loosened to permit the re- 2 moval of the transverse tie rods 56. The transverse rear pipe 88 is withdrawn by removingthe As previously remarked, the elevator 38 isdriven from the rear end 26b of the power takeoff shaft. Referring first to Figure 6, a universal joint 21I establishes connection between this power take-off shaft and a telescopic drive connection 212, and a second universal joint .213 establishes connection between this telescopic drive member and a shaft 214 which enters the gear housing 215. Said gear housing is mounted on the detachable rear frame I56. A pair of bevel gears within said housing transmit a drive to a laterally-extending shaft 216 on the outer end of which is mounted a sprocket 211. A chain 218 trained over said sprocket transmits power to a sprocketwheel 219 which is secured to the elevator drive shaft I66, previously referred to. Theoperative connection between sprocket wheel 219 and the elevator drive shaft'I66 includes a jaw clutch 28I which is best illustrated in Figby a forked shifting member'282 which ispivotal- 1y supported on frame I56 at I83 (Figure I);

Said shifting member is adapted to be rocked by an oscillatable control rod 284 which .has suitable bearing support on the frame I56 and which has a handle portion 284' at its upper end, in a location convenient to the operators position on the tractor seat 28. The lower'portion of said rod 284 has a crank 285 formed therein and a link 286 extends from this crank to the forward end of the shifting lever 282, whereby oscillation of said rod 284 is opera'tiveto throw the jaw. clutch 28I into and out of engagement for starting or stopping the elevator 38. 'It will be seen that when the elevator is mounted on or discounted from the tractor, the associated power transmitting connection can be readily coupled or uncoupled atthe telescopic member 212 or at the universal joint 21I. a

The implement is disconnected from the tractor in the following manner:'- 1 r The elevator 38 is removed, such being per.- mitted by disconnecting the tension rods "I from the brackets I12; removing the drive chain 218 from the sprocket wheel 219; and removing the bearings I61 from the open rear ends ofthe angle brackets I68. Thereupomthe elevator 38,

' with its shaft I66, can be lifted out of position.

.292 to the ends of. the down'wardlyinclined, rear frame arms I26, and being normally held in elevated position. Said folding legs are first dropped into inclined positions in contact with the ground, as illustrated in dotted lines in Figure 2. Thereupon, the tractor is driven forwardly a short distance to cause these legs to swing backwardly to the upright positions illustrated in Figure 3.

The implement frame is now resting on its gatherer points and on the supporting legs 29I and on its wheels 3|. w

The steering connections are released by disconnecting the brackets I5I (Figure 10) fronr the telescopic tube member I44, and the tie links I52, with the brackets I5I attached thereto, are swung rearwardly out of the way of the front wheels I6 of the tractor, when the tractor is to be backed out of the implement.

vertical pins I02 from the ends of the U-shaped brackets IN, and pulling the pipe out from the open ends of these brackets. The pressure 'of the counterbalancing springs I25 is released by backing oil the nuts I 3|, preparatory to disconnecting the propelling frames or links II4 from the tractor. The latter operation is performed by simply removing the cotter pinsv I26 and swinging the frames upwardly to free the apertured plates II1 from the lugs II9. The link I31, connecting the tilting lever I34 with the tractor,

is disconnected from the tractor. Thereupon,'

the tractor canbe backed free of the'im'plement. To connect the implement to the'tracton' the above steps are followed substantially in reverse order. The two sections or, the telescopic drive member I82 arefed one intotheother as the tractor is driven for'wardly into position within the implement...

While we have illustrated and described'what we regard to be the preferred embodiment ofour invention, nevertheless it willbe understood that such is merely exemplary ,jand 'that numerousv modifications and rearrangements may be made without departing vention.

'We claim i 1. The combination with a tractor, of an agricultural implement comprising a frame adapted to embrace the tractor, a sup'porting'wheel for said frame, means connecting said frame with said tractor permitting said frame and wheel to move relatively to said tractor, picking mechanisms on said frame at opposite sides of the tractor, and husking apparatus on said frame adjacent. to the rear end' ofthe tractor.

' 2. The combination with'a tractor, of an agricultural implement comprising a frameeinbracing the forward end of the tractor, a supporting wheel for said frame, means connectingsaid frame with said tractor permitting said frame to tilt fore. and aft relatively .to said tractor about said wheel, picking mechanism on said frame and projecting forwardly from the vertical plane of the axis of said wheel, and husking mechanism on said frame extending rearwardly from said plane. a. y I

3. The combination with a tractor comprising rear traction wheels and a front, steering wheel, of an agricultural implement comprising a frame embracing the tractor, a dirigible supporting wheel for said frame, means connecting said frame with said tractor permitting said frame and dirigible wheel to move vertically relatively to said tractor, steering meansgfor causing said dirigible wheel to be steered concurrently with the front steering wheel of the'tractor, picking mechanisms on said frame at oppositesides of the tractor and projecting forwardly from the vertical axial plane of said dirigible wheel, and

from the essence of the in vertically relatively to said tractor, picking mechanism on the forward portionof said frame, and husking mechanism arranged on the rearward tilting of said frame in .one

tractor, supporting v of said tractor; a propelling con-' 1 tractorand said frame permitting said frame to tilt fore andaft relatively to said tractor about said supporting wheels, yieldablemeans resistingsuch tilting of said framein one direction, and picking mechanism on said frame adjacent to the front end, of the tractor.

6. The combinationwith a tractor comprising traction wheels and steering wheels, of a corn harvester comprising a frame embracing said wheels for said frame at opposite 'sides nection between the'bodyof' said tractorand said frame permitting said frame to tilt fore and aft relatively to said tractor about said supporting wheels, yieldable means resisting such mechanisms on said frame at opposite sides of the tractor, and adjusting mechanism for tilting saidframe in either direction to raise or lower said picking'mechanisms.

7. The combination with a tractor, of an agricultural implement frame embracing said tractor and comprising an upwardly extending arch member extending over the tractor and aforwardly extending archmember extending'around the front end of tween said tractor and frame permitting relative movement the'rebetween. 8. The combination with a tractor, of an agriand comprising an upwardly extending arch member extending over the top of the tractor intermediate the front and rear wheels of the tractor, supporting wheels for said frame, and apropelling connection between saidtractorfand frame permitting relative movement therebetween. f

,9. The combination with a tractor, of an agricultural implement frame embracing said tractor and comprising an upwardly extending arch member extending over the tractor, frame members projecting forwardly from said arch member, frame members projecting .rearwardly from said arch member, supporting wheels for said frame,

and a propelling connection between said tractor V and frame permitting said frame and its supporting wheels to move vertically relatively to said tractor. a a I 1.0. The'combination with a tractor,"of an agricultural implement associated with said tractor comprising a pair of implement wheels, axles for said wheels, an upwardly extending arch member spanning the'tractor and having its lower ends mounted on said axles, frame-members project- 'ing substantially longitudinally from said arch member, and a propelling connection between said tractor and implementpermitting relative vertical movement therebetween.

11. The combination with a tractor, of an agricultural implement associated withsaid tractor ,comprising a pair of said wheels, an inverted U'-shaped frame member ,having its downwardly extending legs mounted implement wheels, axlesfor having its upper transverse the top of the tractor, auxilconnected with said inon said axles and portion arched over iary frame structures direction, picking the tractor, supporting wheels -for said frame, and a propelling connection becultural implement frame embracing saidtractor.

ingapparatus,

. nisms,

verted U-shaped frame member and disposed substantially between the downwardly extending legs 12. The combination with a tractor having a" steering truck, of an agricultural implement frame connected to said tractor to be propelled thereby, a pair of dirigible supporting wheels for said frame, oscillatable means mounted on said tractor for steering truck to said oscillatable means for swinging the latter sidewise, andsteering connec-f 'tions extendingfrom said oscillatable means to said dirigible implement wheels. V v

l3..The combination with a. tractor having fa steering truck, of an agricultural implement frame, a pair of dirigible supporting wheels for said frame, a longitudinally extending arm pivi otally-supported on the under side of said tractor sidewise swinging movement, means for transmitting motion from thetr'actor,

for sidewise swinging movement, a' longitudinally extending arm secured to said tractor steering truck and, operatively connected -to. transmit swinging motion to-said first named arm, steering connectionsextending from said first named arm and said dirigible implement wheels, and a propelling connection between said tractor and implement framepermitting relative vertical movementtherebetween. l I V Y 7 V 14. The combination with a tractor, of an agricultural implement frame comprising supporting wheels,means operatively connecting said frame with saidtractor permitting saidframe and supporting wheels'to have vertical'movement rcatlvely to said tractor and permitting said frame to have fore and aft tilting movement relatively to said tractor, and spring means yieldably cushe ioning one of said movements in one direction.

15. The combination with a tractor, of an agricultural implement comprising a frame, supporting wheels for said frame, means connecting said frame with said tractor permitting said frame and its supporting wheels to. move vertically, relativ ely.to.said tractoh'picking mechanisms on saidframe adjacent to the front end of the tractor, husking apparatus on said frame adjacent to the conveyorssupported on opposite sides of said frame and extending upwardly and rearwardly for conveying the corn from said picking mecharear end of said tractor, and

nisms to said husking apparatus, said conveyors diverging outwardlyt-oward the rear from said picking mechanisms to said husking apparatus.

16. The combination with a power take-off, of a corn harvester comprising a frame, means for connecting said frame with said tractor, a plurality of picking units mounted on-thefront portion of said frame, huskingapparatus mounted on the rear portion of said frame, conveyor mechanism for conveying the corn from said picking mechanisms to said huska power transmitting connection between said frame and the power take-off on said tractor, said connection comprising two disconnectible parts adapted to be separated when a tractor comprising said frame is disconnected from the tractor, and t means for driving said plurality of picking mechasaid husking apparatus and said conveyor mechanism from said power transmitting connection. a 7

17; The combination with a tractor having a substantially longitudinally extending power take-off shaft, of a corn harvester associated with said tractor comprising a frame picking mechanism on said frameadjacent to the front end of the tractor, an elevator disposed adjacent to the rear end of said tractor, meansior transprising'a frame embracing the tractonpicking mechanisms mounted on said frame 9J2 O posite sides of the tractor, means operatively connecting said power take-oi! device with one of said picking mechanisms, and means for transmitting power to'the other picking mechanism at the opposite side of the frame comprisingaj power trans mitting device-extending transversely across said frame in front of the tractor. a v v 19. The combination witha tractor including a power take-off device, of a corn harvester'comprising a frame associated with said tractor, pickingmechanisms mounted" on said frame adjacent to the forward end thereof, husking'mechanisms mounted on said frameadjacent to the rear end thereof,,means for conveying the corn fromsaid picking mechanisms to said, husking mechanisms,

means for'transmitting power from said power take-off device to said picking mechanismsfand' shafts extending upwardly, and rearwardly for transmitting power from said picking mechanisms to said husking mechanisms;

. 2o. The combination with stmctd ha ig power 'take oil' device, of a corn harvester comprising a frame associated with said tractor, picka ingf mechanism mounted on said frame c'omprising snappin'grolls and inner and outer gatherer chains, shafts operatively connected with said snapping rollsand said gatherer'chains for drive ing the latter, said shafts extending upwardly and rearwardly substantially parallel with said snappi'ngfrolls", aforwardl'y'extending shaft on said frame, means for ope'ratively connecting said latter shaft with said power take-off device, a drive shaft mounted on said frame and extending upwardly and rearwardly, gear mechanism for connecting said forwardly extending shaft with said drive shaft, and means for transmitting motion from said drive shaft to said first mentioned shafts.

21. The combination with a tractor, ofan agricultural implement comprising a frame of substantially horlzontalU-shape with the open ends of the U at the rear of the frame, said tractor being driven forwardly into the frame through said open rear end, supporting wheels for said frame, and means connecting said frame with the tractor permitting the frame and its supporting wheels to riseand fall relatively to the tractor.

22. The combination with a tractor comprising traction wheels and a steering wheel, of an agricultural implement comprising a frame associated with said tractor, a supporting wheel for said frame, means connecting said frame with the body of said tractor enabling said implement frame and said supporting wheel to rise. and fall in a substantially vertical plane relatively to said tractor and enabling said frame to tilt fore and aft relatively to said tractor about said supporting wheel, picking mechanism on said frame adjacent to the front end of the tractor, and an adjusting mechanism .connectedbetween said implement frame and the body of the tractor operative to tilt said implement frame fore and aft about said support:

ing wheel for raising and lowering said picking mechanism. I

23. The combination with a tractor compris-f 7 ing front and'rear wheels, of an agricultural implementcomprising a frame embracing said j tractor, supporting wheels for said implement frame at oppositesides ofthe tractor and diS-' posed intermediate the axes of said front and rear tractor wheels, means connecting said'implementframe Withthe body of said tractor enabling said frame and said supporting wheels to -rise an'd 'fall in a substantiallyvertical plane relatively to said tractor andenabling said frame to'tiltffore and aft relatively tos'aid tractor-about said supporting wheels, picking mechanisms on said frame at opposite sides of the tractor and adjacent to'the front end of the tractor,a;nd'a'n adjusting mechanism connected between said 'im-' plement frame and-the body of the tractor operative to tilt said implement frame fore and aft about said supporting wheels for raising and lowering said picking mechanisms.

24." The combination'with a "tractor, of an agricultural implement comprisinga frame embracing the ,forward' end" of "the tractor, supporting'wheel means carrying at least a substantia-l'portion of'the' weight'of said frame, means connecting said frame with said tractorpermit-' ting said frame to move relatively tosaid tractor;

picking mechanism on said frame and projectingforwardly from thevertical' plane of the-axis ofsaid wheel means, and husking mechanism-on said'frame extending rearwardly from said plane; 25. The combination witha tractor compris ing rear trac'tion wheels and a front "steering wheel, of an agricultural implement comprising a frame embracing the tractor; dirigible support-' ing wheel means carrying at least a substantial portion of the weightof said frame, means 'con-' necting' said frame "with" said-tractor providing relative movement between the tractor and said wheel means while the latter supports, at'l'east in part, said frame, steering means" for causing said dirigible wheel means to be steered concurrently with the front steering wheel of the tractor, picking mechanisms on said frame at opposite sides of the tractor and projecting forwardvly from the vertical axial plane of said dirigible wheel means, and husking apparatus on said frame extending rearwardly from said plane.

26. The combination with a tractor having a steering truck, of an agricultural implement frame connected to said tractor .to be propelled thereby and comprising a forwardly extending .arch member extending aroundthe front end of the tractor and pivotally connected'at its rear ends to the tractor for'movement with respect thereto, a pair of dirigible supporting wheels mounted for swinging movement with respect to said frame andcarrying at least a substantial portion of the'weight of said frame, oscillatable means mounted on said tractor for sidewise swinging movement, means for transmitting motion from the tractor steering truck to said oscillatable means for swinging the latter sidewise, and steering connections extending from said oscillatable means to said dirigible implement' wheels.- a

27. The combination with a tractor, of an agri-- cultural implement comprising a frame of 'sub-.

stantially horizontal U-shape with the open ends of theU at the rear of. the frame, said tractor being driven forwardly into the frame through said open rear end, supporting means carrying at least a substantial portion of the weight of 7 a said frame, and means connecting said frame with thetractor, permitting the wheel means to rise and-fall. relatively to the tractor.

28. A tractor propelled corn harvester comprising two sets of snapping rolls carried by the tractor, one on each side and opposite the'steeb ing means thereof, two longitudinally extendingconveyors positioned onopposite sides of the tractor, one for each set ofrolls,,for conveying the:.ears of corn 7 from the rolls to the rearof. the tractor, chutes extendingidownwardly and "inwardlyfrom thel-ends of saidconveyors, corn husking ,means carriedby the tractorr adjacent the rear thereof and arranged to receive ears of corn from said chutes, and an elevator at the rear ofthe tractor and centrally thereof for receiving the ears from saidhuskingmeans and fordeliveringthem into a wagon. v I

' 29. The combination with a tractor having a relatively narrow body supported on rear traction wheels and a front truck of awidthnot greater than the width of the tractor b0dy, 0f an agricultural implement comprising a frame of substantially horizontal U-shape withthe open. ends of the U at the rear of theframe, said; tractor being driven"forwardly into the frame 7 through said open rear end, twoharvesting mech-- anisms carried by said frame, each mechanism comprising crop gatheringmeans and rearwardiy.

extending conveying means associated therewith, saidmechanisms being positioned on opposite sides of the tractor body inclose proximity-thereto, the gathering means thereof being positioned near'said truck, separatehusking means carried by said frame'oneach side'of the tractor rear- 'wardly of said conveying means-an elevator separately mounted on the rear ,of the tractor and having a receiving end positioned substantially centrally of the tractor body, and means for conducting crop from said husking means into the receiving end of said elevator.

o 30. o The V combination with a tractor having a relatively narrow body supported on: rear trac; tion wheels and a front truck of, a width not greater than the width of the tractor body, of

an agricultural implement comprisin a, frame of substantially horizontal U-shape with the open ends ofv the u at thefrear ofitheframe,

said tractor being driven [forwardly into the frame, throughfsaid open rear end,- supporting wheel means movable relative f to the tractor and arranged to support at 'leastj a po'rti'onof the weightof the frame, two harvesting mechanisms carried by said frame, each mecha'nism' comprising crop 'gatheringimeans andrearwardly' extendingfconveying means associated therewith,

said mechanisms being positioned on opposite sides of the tractor body in close [proximity thereto, thegathering means thereof being posia tioned near said truck, and husking means car riedby the frame for receiving ,thecrop from 20 31. The combination with 81': tractor having said gathering means.

front dirigible and rear traction vwheels,fof a rigid generally 'U-shapedframe, having its cen'-1 trai portion embracing the front of the tractor and side portions extending aiongthe sidesof the tractor, a pair of laterally spaced gathering] 'units carried at the forward end of said'frame' adjacent the central portion thereof, a pair' of husking units supported upon the side portions of. said frame and disposed substantially above the axis of said traction'wheels, dirigible wheels for said frame disposed substantially midway between the gathering units at the mm end of theframe and thc'husking'units adjacent the rear end of the frame,said dirigible wheels being arranged to support ,at least a portion of the weight of said frame and the units carried thereby, and means interconnecting the idirigible wheels of said frame and the d'irigible wheels of f the tractor; t v J. 'coULrAs, 

